Company Filing History:
Years Active: 1992
Title: Munenari Kondo: Innovator in Semiconductor Technology
Introduction
Munenari Kondo is a notable inventor based in Mie, Japan. He has made significant contributions to the field of semiconductor technology, particularly with his innovative designs and manufacturing methods. His work has led to advancements that enhance the functionality and reliability of semiconductor devices.
Latest Patents
Kondo holds a patent for a "Semiconductor strain sensor and manufacturing method thereof." This invention features a semiconductor strain sensor that includes a stem with a lead hole for installing a lead terminal, which is electrically coupled to an external circuit. The sensor chip, equipped with piezo-resistors, is joined to a bridge circuit on the front surface of the stem. The design incorporates a shell that is attached to the stem through projection welding, ensuring that the back surface of the stem is flattened to a predetermined limit. The space between the shell and stem is filled with a damping liquid, which is crucial for the sensor's performance. The stem is integrally coupled to the sensor chip using adhesive, with spacers added to maintain the adhesive's thickness. This innovative arrangement effectively prevents the propagation of welding strain from adversely affecting the sensor chip.
Career Highlights
Munenari Kondo is associated with Nippondenso Co., Ltd., where he has contributed to various projects and innovations in semiconductor technology. His expertise and dedication have made him a valuable asset to the company and the industry.
Collaborations
Kondo has worked alongside talented colleagues, including Masahito Imai and Ryoichi Narita. Their collaborative efforts have further advanced the research and development of semiconductor technologies.
Conclusion
Munenari Kondo's contributions to semiconductor technology, particularly through his patented strain sensor, highlight his innovative spirit and commitment to advancing the field. His work continues to influence the development of reliable and efficient semiconductor devices.